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Filled epoxy composite

Fracture Toughness and Rheology of Alumina-Filled Epoxy Composites... [Pg.328]

Graphs of the actual and predicted thermal conductivities for a silver-filled epoxy composition are shown in Fig. (2.15). [Pg.60]

Ada Adachi, T., Araki, W., Nakahara, T., Yamaji, A., Gamou, M. Fracture toughness of silica particulate-filled epoxy composite. J. Appl. Polym. Sci. 86 (2002) 2261-2265. [Pg.545]

Zainuddin S, Hosur MV, Zhou Y, Kumar A, Jeelani S. Durability studies of montmorillonite clay filled epoxy composites under different environmental conditions. Mater Sci Eng A 2009 507 117—123. [Pg.812]

A noteworthy enhancement in the mechanical and electrical conductivity of CNT-filled epoxy composites lead to the development of conductive materials for electronics, automotive shielding, electrostatic dissipation, conductive coating, multilayer printed circuits, and electromagnetic inference. [Pg.166]

Adachi T, Osaki M, Araki W and Kwon S-C (2008) Fracture toughness of nano- and micro-spherical silica-particle-filled epoxy composites, Acta Mater 56 2101-2109. [Pg.416]

Tamura, K., Kubouchi, M., Sakai, T., and Tsuda, K. (2005) Study on lignin particle filled epoxy composite. Proceedings of the Fourth International Workshop on Green Gomposites, Tokyo, Japan, September 14-15, 2006. [Pg.236]

M. Hussain, A. Nakahira, K. Niihara (1996) Fracture behavior and fracture toughness of particulate filled epoxy composites. Mater. Lett. 26, 185. [Pg.60]

Figure 7. Microhardness of nanosilica-filled epoxy composites (amine catalyst). Figure 7. Microhardness of nanosilica-filled epoxy composites (amine catalyst).
Figure 3. Comparison of the time-related depth wear rate of filled epoxy composites (5 vol.% graphite, 5 vol.% PTFE, 15 vol.% SCF) without and with 5 vol.% nano-TiOj as a function of the pv-factor. Wear conditions pin-on-disk apparatus. Figure 3. Comparison of the time-related depth wear rate of filled epoxy composites (5 vol.% graphite, 5 vol.% PTFE, 15 vol.% SCF) without and with 5 vol.% nano-TiOj as a function of the pv-factor. Wear conditions pin-on-disk apparatus.
G. Shi, M. Q. Zhang, M. Z. Rong, B. Wetzel, K. Friedrich (2003) Friction and wear of low nanometer SijN4 filled epoxy composites. Wear 254,784. [Pg.184]

Frictional coefficient fi, versus area under the a-transition peak in tan 6-temperature curve (reprinted from Near, vol. 254, G. Shi etal. Friction and wear of low nanometer SisN4 filled epoxy composites, p. 784, 2003, with permission from Elsevier). [Pg.562]

Shi G, Zhang M Q, Rong M Z, Wetzel B and Friedrich K, Friction and wear of low nanometer Si3N4 filled epoxy composites . Wear 2003 254 784-96. [Pg.575]

See other pages where Filled epoxy composite is mentioned: [Pg.277]    [Pg.618]    [Pg.328]    [Pg.387]    [Pg.164]    [Pg.164]    [Pg.193]    [Pg.490]    [Pg.140]    [Pg.94]    [Pg.177]    [Pg.183]    [Pg.289]   
See also in sourсe #XX -- [ Pg.292 ]



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